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Issue 11, 2024
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PACS numbers

42.60.−v Laser optical systems: design and operation
  1. I.A. Shcherbakov “On the 60th anniversary of Nobel Prize for discovery of laser-maser principlePhys. Usp. 67 845–848 (2024)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  2. V.V. Dudelev, E.D. Cherotchenko et alQuantum cascade lasers for the 8-μm spectral range: technology, design, and analysisPhys. Usp. 67 92–98 (2024)
    42.55.Px, 42.60.−v, 78.67.Pt (all)
  3. V.D. Zvorykin “N G Basov's role in the development of excimer lasers: a half-century history from the launch of the first Xe2 laser at the Lebedev Physical Institute to modern laser systemsPhys. Usp. 66 1037–1058 (2023)
    42.55.Lt, 42.60.−v, 42.62.−b (all)
  4. S.Yu. Mironov, A.V. Andrianov et alSpatio-temporal shaping of photocathode laser pulses for linear electron acceleratorsPhys. Usp. 60 1039–1050 (2017)
    29.20.−c, 29.27.Ac, 42.60.By, 42.60.−v (all)
  5. E.A. Khazanov “Thermooptics of magnetoactive medium: Faraday isolators for high average power lasersPhys. Usp. 59 886–909 (2016)
    42.60.−v, 42.79.−e, 85.70.Sq (all)
  6. S.P. Vyatchanin “Parametric oscillatory instability in laser gravitational antennasPhys. Usp. 55 302–305 (2012)
    04.80.Nn, 07.60.−j, 42.60.−v (all)
  7. I.A. Shcherbakov “Development history of the laserPhys. Usp. 54 65–71 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  8. I.M. Belousova “The laser in the USSR: the first stepsPhys. Usp. 54 73–75 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  9. A.M. Leontovich, Z.A. Chizhikova “On the creation of the first ruby laser in MoscowPhys. Usp. 54 77–85 (2011)
    01.65.+g, 42.50.−p, 42.60.−v (all)
  10. A.V. Masalov “Optical Department of the Lebedev Physical Institute: early work on lasersPhys. Usp. 54 87–91 (2011)
    01.65.+g, 42.55.−f, 42.60.−v (all)
  11. Yu.M. Popov “The early history of the injection laserPhys. Usp. 54 96–100 (2011)
    01.65.+g, 42.55.Px, 42.60.−v (all)
  12. A.A. Manenkov “Self-focusing of laser pulses: current state and future prospectsPhys. Usp. 54 100–104 (2011)
    01.65.+g, 42.60.−v, 42.65.−k (all)
  13. O.N. Krokhin “Electric power transmission using laser radiationPhys. Usp. 49 425–428 (2006)
    01.10.Fv, 42.60.−v, 42.79.Gn, 72.40.+w (all)
  14. A.A. Belyanin, D. Deppe et alNew semiconductor laser designs and the exploratory investigation of the terahertz frequency rangePhys. Usp. 46 986–992 (2003)
    42.55.Px, 42.60.−v (all)
  15. S.V. Ivanov, P.S. Kop’ev, A.A. Toropov “Blue-green lasers based on short-period superlattices in II-VI compoundsPhys. Usp. 42 399–402 (1999)
    42.60.−v, 42.60.By (all)
  16. S.A. Akhmanov “Physics of lasers, laser physics, and optical physicsSov. Phys. Usp. 34 (7) 641–643 (1991)
    01.30.Vv, 42.62.Fi, 42.55.Rz, 42.60.−v, 42.65.−k, 42.50.−p (all)
  17. A.M. Prokhorov “On the twenty-fifth anniversary of the laserSov. Phys. Usp. 29 1–2 (1986)
    42.55.Ah, 42.60.−v, 42.50.−p, 84.40.Ik, 42.55.Mv, 42.65.Lm (all)
  18. I.L. Fabelinskii “New optical methods of studying rapid processesSov. Phys. Usp. 14 341–349 (1971)
    42.65.Re, 07.60.−j, 42.60.−v, 42.72.−g, 42.65.Hw, 42.65.Es (all)
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